Blood pump without bearing
First Claim
1. A blood pump without bearing, having a pump casing comprising an axial inlet and an outlet disposed on its circumference, and having an impeller rotatably arranged in said pump casing, said impeller being provided with magnets adapted to cooperate with an external magnetic driving means, wherein the impeller is freely movable within a limited clearance in the pump casing, and the blades on the lower side of the impeller facing the driving means comprise hydrodynamically lifting support surfaces, characterized in that, as seen from the top, the blades are of essentially triangular configuration, wherein the blade width increases with increasing radius and wherein the blades have a convex outer surface on the circular border of a supporting body.
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Accused Products
Abstract
The blood pump comprises a pump casing (10) in which an impeller (16) is installed without any bearing. Said impeller (16) is rotated via a magnetic coupling (32,36) by an external magnetic driving means (33). The impeller is radially centered via the magnetic coupling (32,36). The lower side (30) of the blades (19) of the impeller is configured as supporting surface (30) sloping towards the trailing end. In this way a hydrodynamical supporting effect is attained during rotation such that the impeller (16) raises from the bottom surface (12) of the pump casing (10). Since no bearings and sealings are provided on the pump casing the danger of thrombosis and the danger of penetration of foreign bodies in the form of abrasive particles into the blood is reduced.
199 Citations
12 Claims
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1. A blood pump without bearing, having a pump casing comprising an axial inlet and an outlet disposed on its circumference, and having an impeller rotatably arranged in said pump casing, said impeller being provided with magnets adapted to cooperate with an external magnetic driving means, wherein the impeller is freely movable within a limited clearance in the pump casing, and the blades on the lower side of the impeller facing the driving means comprise hydrodynamically lifting support surfaces, characterized in that, as seen from the top, the blades are of essentially triangular configuration, wherein the blade width increases with increasing radius and wherein the blades have a convex outer surface on the circular border of a supporting body.
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2. A blood pump comprising:
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a housing including an axial inlet and tangential outlet on its circumference, and upper and lower surfaces substantially parallel to one another;
an impeller floating freely within said housing without bearing when rotating therein about an axis of rotation, the impeller comprising a disc-shaped support body and a plurality of blades supported on the support body, the blades having a magnet disposed therein and hydrodynamic lifting surfaces on a lower surface thereof; and
a magnetic drive external to the housing, said magnetic drive system cooperating with the magnets disposed on the blades of the impeller to bias the impeller to rotate about its axis of rotation. - View Dependent Claims (3, 4)
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5. A blood pump comprising:
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a housing including an axial inlet and tangential outlet on its circumference;
an impeller floating freely within said housing without bearing when rotating therein about an axis of rotation, the impeller comprising a support body and a plurality of blades supported on the support body, the blades having a magnet disposed therein and hydrodynamic lifting surfaces on a lower surface thereof, the blades further comprising a triangular configuration when viewed from above and including a leading surface, a trailing surface, a leading edge at an outer radius of the leading surface, a trailing edge at an outer radius of the trailing surface, and a coincident leading edge and trailing edge at an inner radius where the leading surface and trailing surface converges, a space between the leading surface of a first blade and a trailing surface of an adjacent blade defining a blood flow passage, the blades configured such that the blood flow passage area between successive blades is constant for all radii on the impeller; and
a magnetic drive external to the housing, said magnetic drive system cooperating with the magnets disposed on the blades of the impeller to bias the impeller to rotate about its axis of rotation. - View Dependent Claims (6, 7, 8, 9, 10, 11, 12)
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Specification
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- Resources
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Current AssigneeImpella Cardiosystems Gmbh
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Original AssigneeImpella Cardiosystems AG
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InventorsSiess, Thorsten
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Primary Examiner(s)Look, Edward K.
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Assistant Examiner(s)Fristoe, Jr., John K
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Application NumberUS09/856,628Time in Patent Office756 DaysField of Search604/890.1, 604/891.1, 604/131, 415/104, 415/106, 415/111, 415/900, 417/420, 417/423.7, 417/423.12US Class Current604/891.1CPC Class CodesA61M 60/122 Implantable pumps or pumpin...A61M 60/148 in line with a blood vessel...A61M 60/216 including a rotating member...A61M 60/419 the force acting on the blo...A61M 60/82 Magnetic bearingsA61M 60/824 Hydrodynamic or fluid film ...F04D 13/026 Details of the bearingsF04D 13/027 Details of the magnetic cir...F04D 29/242 Geometry, shapeF04D 29/44 Fluid-guiding means, e.g. d...
